Practical fiber designs for two stage third-order soliton compression with single mode fibers are presented. Fiber design rules as well as influences of higher-order dispersion and splicing loss are discussed. A compression factor of 85.92 is achieved with only 60.39% pedestal energy.National Natural Science Foundation of China [61675008]SCI(E)ARTICLE24-293
Numerical simulations are used to investigate soliton compression in silicon core optical fibers at ...
We investigate the adiabatic compression of picosecond and subpicosecond soliton pulses from all-fib...
session 13C5 " Plastic Fibers and Dispersion Measurements " [13C5-3]International audienceWe present...
Detailed fiber design of single mode fibers for two-stage higher-order soliton compression at 1550 n...
Cascaded higher-order soliton compression in photonic crystal fibers (PCFs) is demonstrated, where b...
A detailed fiber design was presented for the first time for three-stage third-order soliton compres...
We consider compression of higher-order solitons in asymmetric and symmetric dual-core fibers (coupl...
Fiber Lasers VIII: Technology, Systems, and Applications, San Francisco, CA, 24-27 January 2011Non-a...
We investigate numerically the adiabatic compression of solitons at 1.55 µm in holey fibers which ex...
In this thesis I investigate aspects of dispersion controlled high nonlinearity all silica holey fib...
We investigate numerically the compression of femtosecond solitons at 1.55 µm wavelength propagating...
We consider the non-adiabatic pulse compression of cascaded soliton propagating in three consecutive...
Compression of soliton pulses propagating in optical fibers with decreasing dispersion is a well-est...
Compression of higher-order solitons in nonlinear optical loop mirrors (NOLMs) constructed from disp...
A novel technique to generate ultrashort fundamental solitons is proposed and demonstrated numerical...
Numerical simulations are used to investigate soliton compression in silicon core optical fibers at ...
We investigate the adiabatic compression of picosecond and subpicosecond soliton pulses from all-fib...
session 13C5 " Plastic Fibers and Dispersion Measurements " [13C5-3]International audienceWe present...
Detailed fiber design of single mode fibers for two-stage higher-order soliton compression at 1550 n...
Cascaded higher-order soliton compression in photonic crystal fibers (PCFs) is demonstrated, where b...
A detailed fiber design was presented for the first time for three-stage third-order soliton compres...
We consider compression of higher-order solitons in asymmetric and symmetric dual-core fibers (coupl...
Fiber Lasers VIII: Technology, Systems, and Applications, San Francisco, CA, 24-27 January 2011Non-a...
We investigate numerically the adiabatic compression of solitons at 1.55 µm in holey fibers which ex...
In this thesis I investigate aspects of dispersion controlled high nonlinearity all silica holey fib...
We investigate numerically the compression of femtosecond solitons at 1.55 µm wavelength propagating...
We consider the non-adiabatic pulse compression of cascaded soliton propagating in three consecutive...
Compression of soliton pulses propagating in optical fibers with decreasing dispersion is a well-est...
Compression of higher-order solitons in nonlinear optical loop mirrors (NOLMs) constructed from disp...
A novel technique to generate ultrashort fundamental solitons is proposed and demonstrated numerical...
Numerical simulations are used to investigate soliton compression in silicon core optical fibers at ...
We investigate the adiabatic compression of picosecond and subpicosecond soliton pulses from all-fib...
session 13C5 " Plastic Fibers and Dispersion Measurements " [13C5-3]International audienceWe present...
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